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You searched for subject:(desorption activation energy). Showing records 1 – 6 of 6 total matches.

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Georgia Tech

1. Poston, Michael Joseph. Thermal and non-thermal processes involving water on Apollo lunar samples and metal oxide powders.

Degree: PhD, Chemistry and Biochemistry, 2014, Georgia Tech

 Water is of interest for understanding the formation history and habitability of past and present solar system environments. It also has potential as a resource… (more)

Subjects/Keywords: Water on the moon; Zirconia; Temperature programmed desorption; Desorption activation energy; Water photolysis

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APA (6th Edition):

Poston, M. J. (2014). Thermal and non-thermal processes involving water on Apollo lunar samples and metal oxide powders. (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/52223

Chicago Manual of Style (16th Edition):

Poston, Michael Joseph. “Thermal and non-thermal processes involving water on Apollo lunar samples and metal oxide powders.” 2014. Doctoral Dissertation, Georgia Tech. Accessed October 18, 2019. http://hdl.handle.net/1853/52223.

MLA Handbook (7th Edition):

Poston, Michael Joseph. “Thermal and non-thermal processes involving water on Apollo lunar samples and metal oxide powders.” 2014. Web. 18 Oct 2019.

Vancouver:

Poston MJ. Thermal and non-thermal processes involving water on Apollo lunar samples and metal oxide powders. [Internet] [Doctoral dissertation]. Georgia Tech; 2014. [cited 2019 Oct 18]. Available from: http://hdl.handle.net/1853/52223.

Council of Science Editors:

Poston MJ. Thermal and non-thermal processes involving water on Apollo lunar samples and metal oxide powders. [Doctoral Dissertation]. Georgia Tech; 2014. Available from: http://hdl.handle.net/1853/52223

2. Field, Daniel Alexander. Temperature Programmed Desorption of Graphene Oxide Under Ultra-High Vacuum.

Degree: 2013

Subjects/Keywords: Graphene oxide; Electron diffraction; Annealing; Vacuum activation energy; Desorption; Physics

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APA (6th Edition):

Field, D. A. (2013). Temperature Programmed Desorption of Graphene Oxide Under Ultra-High Vacuum. (Thesis). [No school.] Retrieved from http://hdl.handle.net/2249.1/62510

Note: this citation may be lacking information needed for this citation format:
Not specified: Masters Thesis or Doctoral Dissertation
No school.

Chicago Manual of Style (16th Edition):

Field, Daniel Alexander. “Temperature Programmed Desorption of Graphene Oxide Under Ultra-High Vacuum.” 2013. Thesis, [No school]. Accessed October 18, 2019. http://hdl.handle.net/2249.1/62510.

Note: this citation may be lacking information needed for this citation format:
Not specified: Masters Thesis or Doctoral Dissertation
No school.

MLA Handbook (7th Edition):

Field, Daniel Alexander. “Temperature Programmed Desorption of Graphene Oxide Under Ultra-High Vacuum.” 2013. Web. 18 Oct 2019.

Vancouver:

Field DA. Temperature Programmed Desorption of Graphene Oxide Under Ultra-High Vacuum. [Internet] [Thesis]. [No school]; 2013. [cited 2019 Oct 18]. Available from: http://hdl.handle.net/2249.1/62510.

Note: this citation may be lacking information needed for this citation format:
Not specified: Masters Thesis or Doctoral Dissertation
No school.

Council of Science Editors:

Field DA. Temperature Programmed Desorption of Graphene Oxide Under Ultra-High Vacuum. [Thesis]. [No school]; 2013. Available from: http://hdl.handle.net/2249.1/62510

Note: this citation may be lacking information needed for this citation format:
Not specified: Masters Thesis or Doctoral Dissertation
No school.


Texas State University – San Marcos

3. Field, Daniel Alexander. Temperature Programmed Desorption of Graphene Oxide Under Ultra-High Vacuum.

Degree: MS, Physics, 2009, Texas State University – San Marcos

 Graphene oxide is an electrical insulator that shows potential for use in nanoscale electronic devices. An understanding of the thermal stability of graphene oxide sheets… (more)

Subjects/Keywords: Graphene oxide; Electron diffraction; Annealing; Vacuum activation energy; Desorption; Physics

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APA (6th Edition):

Field, D. A. (2009). Temperature Programmed Desorption of Graphene Oxide Under Ultra-High Vacuum. (Masters Thesis). Texas State University – San Marcos. Retrieved from https://digital.library.txstate.edu/handle/10877/4016

Chicago Manual of Style (16th Edition):

Field, Daniel Alexander. “Temperature Programmed Desorption of Graphene Oxide Under Ultra-High Vacuum.” 2009. Masters Thesis, Texas State University – San Marcos. Accessed October 18, 2019. https://digital.library.txstate.edu/handle/10877/4016.

MLA Handbook (7th Edition):

Field, Daniel Alexander. “Temperature Programmed Desorption of Graphene Oxide Under Ultra-High Vacuum.” 2009. Web. 18 Oct 2019.

Vancouver:

Field DA. Temperature Programmed Desorption of Graphene Oxide Under Ultra-High Vacuum. [Internet] [Masters thesis]. Texas State University – San Marcos; 2009. [cited 2019 Oct 18]. Available from: https://digital.library.txstate.edu/handle/10877/4016.

Council of Science Editors:

Field DA. Temperature Programmed Desorption of Graphene Oxide Under Ultra-High Vacuum. [Masters Thesis]. Texas State University – San Marcos; 2009. Available from: https://digital.library.txstate.edu/handle/10877/4016

4. Sattar, Md. Abdus. 光和周波および第二高調波分光によるSi(111)表面の水素脱離研究.

Degree: 博士(マテリアルサイエンス), 2016, Japan Advanced Institute of Science and Technology / 北陸先端科学技術大学院大学

Supervisor:水谷 五郎

マテリアルサイエンス研究科

博士

Subjects/Keywords: Sum frequency generation (SFG); Second harmonic generation (SHG); Si (111)1x1surface; desorption order; desorption activation energy; hydrogen coverage

Page 1 Page 2 Page 3 Page 4

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APA (6th Edition):

Sattar, M. A. (2016). 光和周波および第二高調波分光によるSi(111)表面の水素脱離研究. (Thesis). Japan Advanced Institute of Science and Technology / 北陸先端科学技術大学院大学. Retrieved from http://hdl.handle.net/10119/13808

Note: this citation may be lacking information needed for this citation format:
Not specified: Masters Thesis or Doctoral Dissertation

Chicago Manual of Style (16th Edition):

Sattar, Md Abdus. “光和周波および第二高調波分光によるSi(111)表面の水素脱離研究.” 2016. Thesis, Japan Advanced Institute of Science and Technology / 北陸先端科学技術大学院大学. Accessed October 18, 2019. http://hdl.handle.net/10119/13808.

Note: this citation may be lacking information needed for this citation format:
Not specified: Masters Thesis or Doctoral Dissertation

MLA Handbook (7th Edition):

Sattar, Md Abdus. “光和周波および第二高調波分光によるSi(111)表面の水素脱離研究.” 2016. Web. 18 Oct 2019.

Vancouver:

Sattar MA. 光和周波および第二高調波分光によるSi(111)表面の水素脱離研究. [Internet] [Thesis]. Japan Advanced Institute of Science and Technology / 北陸先端科学技術大学院大学; 2016. [cited 2019 Oct 18]. Available from: http://hdl.handle.net/10119/13808.

Note: this citation may be lacking information needed for this citation format:
Not specified: Masters Thesis or Doctoral Dissertation

Council of Science Editors:

Sattar MA. 光和周波および第二高調波分光によるSi(111)表面の水素脱離研究. [Thesis]. Japan Advanced Institute of Science and Technology / 北陸先端科学技術大学院大学; 2016. Available from: http://hdl.handle.net/10119/13808

Note: this citation may be lacking information needed for this citation format:
Not specified: Masters Thesis or Doctoral Dissertation


University of Illinois – Urbana-Champaign

5. Reich, Jason. Thermodynamics and kinetics of hydrogen storage in magnesium hydride: a theoretical study of catalyst-dopant, defect, and size effects.

Degree: PhD, 0337, 2014, University of Illinois – Urbana-Champaign

 With their high capacity, light-metal hydrides – like MgH2 – remain under scrutiny as reversible H-storage materials. A key question persists: Is there a means… (more)

Subjects/Keywords: hydrogen storage; thermodynamics; kinetics; magnesium hydride (MgH2); size effect; hydrogen; H2; desorption; catalysis; magnesium hydride defects; rutile semi-infinite surface; magnesium hydride nanocluster; Mg31H62; nudged elastic band; moment transition nudged elastic band; reversible H-storage; reversible H2 storage; reversible hydrogen storage; density functional theory (DFT); semi-infinite stepped rutile (110) surface; semi-infinite stepped surface; semi-infinite stepped magnesium hydride (MgH2) surface; activation energy; transition state; metal hydride; hydrogen desorption mechanism; H2 desorption mechanism; hydrogen desorption; H2 desorption

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APA (6th Edition):

Reich, J. (2014). Thermodynamics and kinetics of hydrogen storage in magnesium hydride: a theoretical study of catalyst-dopant, defect, and size effects. (Doctoral Dissertation). University of Illinois – Urbana-Champaign. Retrieved from http://hdl.handle.net/2142/46805

Chicago Manual of Style (16th Edition):

Reich, Jason. “Thermodynamics and kinetics of hydrogen storage in magnesium hydride: a theoretical study of catalyst-dopant, defect, and size effects.” 2014. Doctoral Dissertation, University of Illinois – Urbana-Champaign. Accessed October 18, 2019. http://hdl.handle.net/2142/46805.

MLA Handbook (7th Edition):

Reich, Jason. “Thermodynamics and kinetics of hydrogen storage in magnesium hydride: a theoretical study of catalyst-dopant, defect, and size effects.” 2014. Web. 18 Oct 2019.

Vancouver:

Reich J. Thermodynamics and kinetics of hydrogen storage in magnesium hydride: a theoretical study of catalyst-dopant, defect, and size effects. [Internet] [Doctoral dissertation]. University of Illinois – Urbana-Champaign; 2014. [cited 2019 Oct 18]. Available from: http://hdl.handle.net/2142/46805.

Council of Science Editors:

Reich J. Thermodynamics and kinetics of hydrogen storage in magnesium hydride: a theoretical study of catalyst-dopant, defect, and size effects. [Doctoral Dissertation]. University of Illinois – Urbana-Champaign; 2014. Available from: http://hdl.handle.net/2142/46805

6. Acharya, Ananta R. Indium Nitride Surface Structure, Desorption Kinetics and Thermal Stability.

Degree: PhD, Physics and Astronomy, 2013, Georgia State University

  Unique physical properties such as small effective mass, high electron drift velocities, high electron mobility and small band gap energy make InN a candidate… (more)

Subjects/Keywords: indium nitride; high resolution electron energy loss spectroscopy; tilted crystallites; polarity; thermal desorption; activation energy

…minute. The activation energy was calculated using the slope of the best fit line for the… …25 viii 2.3.7 Desorption of hydrogen… …38 3.2 Low energy electron diffraction… …54 3.7 High resolution electron energy loss spectroscopy… …54 3.8 Temperature programed desorption… 

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APA · Chicago · MLA · Vancouver · CSE | Export to Zotero / EndNote / Reference Manager

APA (6th Edition):

Acharya, A. R. (2013). Indium Nitride Surface Structure, Desorption Kinetics and Thermal Stability. (Doctoral Dissertation). Georgia State University. Retrieved from https://scholarworks.gsu.edu/phy_astr_diss/62

Chicago Manual of Style (16th Edition):

Acharya, Ananta R. “Indium Nitride Surface Structure, Desorption Kinetics and Thermal Stability.” 2013. Doctoral Dissertation, Georgia State University. Accessed October 18, 2019. https://scholarworks.gsu.edu/phy_astr_diss/62.

MLA Handbook (7th Edition):

Acharya, Ananta R. “Indium Nitride Surface Structure, Desorption Kinetics and Thermal Stability.” 2013. Web. 18 Oct 2019.

Vancouver:

Acharya AR. Indium Nitride Surface Structure, Desorption Kinetics and Thermal Stability. [Internet] [Doctoral dissertation]. Georgia State University; 2013. [cited 2019 Oct 18]. Available from: https://scholarworks.gsu.edu/phy_astr_diss/62.

Council of Science Editors:

Acharya AR. Indium Nitride Surface Structure, Desorption Kinetics and Thermal Stability. [Doctoral Dissertation]. Georgia State University; 2013. Available from: https://scholarworks.gsu.edu/phy_astr_diss/62

.